Pankaj Jain, Harishyam Kumar, K. Ramkumar
Physics Department, Indian Institute of Technology, Kanpur, 208016, India
Abstract
We extend the recently proposed mechanism for inducing low energy nuclear reactions (LENR) to compute the reaction rate of deuteron with a heavy nucleus. The process gets dominant contribution at second order in the time dependent perturbation theory and is assisted by a resonance. The reaction proceeds by breakdown of deuteron into a proton and a neutron due to the action of the first perturbation. In the second, nuclear perturbation, the neutron gets captured by the heavy nucleus. Both perturbations are assumed to be electromagnetic and lead to the emission of two photons, one at each vertex. The heavy nucleus is taken to be 58Ni although many other may be considered.The reaction rate is found to be very small unless assisted by some special conditions. In the present case we assume the presence of a nuclear resonant state. In the presence of such a state we find that the reaction rate is sufficiently large to be observable in laboratory even at low energies.
Full doc:
https://arxiv.org/pdf/2407.15137